TGA investigation of CO2 gasification of hydrothermally treated biomass (corn cob-coconut shell mixture)

Yuliansyah, Ahmad Tawfiequrrahman and Putri, Chika O. and Clarasinta, Britania D. and Nonaka, Moriyasu (2019) TGA investigation of CO2 gasification of hydrothermally treated biomass (corn cob-coconut shell mixture). International Journal of Technology, 10 (6). 1166 - 1173. ISSN 20869614

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Abstract

Gasification is one option for producing cleaner fuel from biomass. A gaseous mixture of H<inf>2</inf>, CO, CH<inf>4</inf>, and CO<inf>2</inf> is produced through the partial oxidation of biomass with a gasifying agent such as air, pure O<inf>2</inf>, steam, CO<inf>2</inf>, or a mixture of these. This method is capable of handling a wide range of inhomogeneous biomass (including forest, agricultural, and organic processing residues) and converting them into a homogeneous gas with a considerably higher level of applicability. In this research, the CO2 gasification of hydrothermally treated biomass has been studied using TGDTA analyzer (Bruker TG DTA 2000SA) apparatus. The biomass treated was a mixture of corn cob and coconut shell (weight ratio of 1:1). This raw biomass was firstly subjected to hydrothermal treatment at three different temperatures (200, 240, and 270°C-denoted as H-200, H-240, and H-270) using a batch autoclave prior to being gasified by CO<inf>2</inf> under atmospheric pressure in the TGA apparatus. The experimental results show that the weight loss of hydrochar was resulted mostly from the process of devolatilization (82.92-86.16). Hydrochar obtained from higher hydrothermal temperatures demonstrated a lower reactivity of gasification, due to the lower amount of moisture and volatile matter. In addition, higher-temperature hydrochar contained lower potassium content and thus shifted the conversion of gasification reaction to a higher temperature. © 2019 Faculty of Engineering, Universitas Indonesia.

Item Type: Article
Additional Information: Cited by: 3; All Open Access; Gold Open Access; Green Accepted Open Access; Green Open Access
Uncontrolled Keywords: Coconut shell; Corn cob; CO2 gasification; Hydrothermal treatment; Reactivity
Subjects: T Technology > TP Chemical technology > Chemical engineering
Divisions: Faculty of Engineering > Chemistry Engineering Department
Depositing User: Sri JUNANDI
Date Deposited: 09 Apr 2026 02:19
Last Modified: 09 Apr 2026 02:19
URI: https://ir.lib.ugm.ac.id/id/eprint/25426

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